Toward an ontology of tobacco, nicotine and vaping products

Background and aims Ontologies are ways of representing information that improve clarity and the ability to connect different data sources. This paper proposes an initial version of an ontology of tobacco, nicotine and vaping products with the aim of reducing ambiguity and confusion in the field. Me...

Full description

Saved in:
Bibliographic Details
Published in:Addiction (Abingdon, England) England), 2023-01, Vol.118 (1), p.177-188
Main Authors: Cox, Sharon, West, Robert, Notley, Caitlin, Soar, Kirstie, Hastings, Janna
Format: Article
Language:English
Subjects:
Addiction Theories and Constructs
Ambiguity
Chewing
Cigarettes
Confusion
Electronic Nicotine Delivery Systems
E‐cigarette
Flavorings
Humans
Nicotine
Ontology
Smoking cessation
Tobacco
tobacco product
Tobacco Products
vape
Vaping
vaping device
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Background and aims Ontologies are ways of representing information that improve clarity and the ability to connect different data sources. This paper proposes an initial version of an ontology of tobacco, nicotine and vaping products with the aim of reducing ambiguity and confusion in the field. Methods Terms related to tobacco, nicotine and vaping products were identified in the research literature and their usage characterised. Basic Formal Ontology was used as a unifying upper‐level ontology to describe the domain, and classes with definitions and labels were developed linking them to this ontology. Labels, definitions and properties were reviewed and revised in an iterative manner until a coherent set of classes was agreed by the authors. Results Overlapping, but distinct classes were developed: ‘tobacco‐containing product’, ‘nicotine‐containing product’ and ‘vaping device’. Subclasses of tobacco‐containing products are ‘combustible tobacco‐containing product’, ‘heated tobacco product’ and ‘smokeless tobacco‐containing product’. Subclasses of combustible tobacco‐containing product include ‘cigar’, ‘cigarillo’, ‘bidi’ and ‘cigarette’ with further subclasses including ‘manufactured cigarette’. Manufactured cigarettes have properties that include ‘machine‐smoked nicotine yield’ and ‘machine‐smoked tar yield’. Subclasses of smokeless tobacco product include ‘nasal snuff’, ‘chewing tobacco product’, and ‘oral snuff’ with its subclass ‘snus’. Subclasses of nicotine‐containing product include ‘nicotine lozenge’ and ‘nicotine transdermal patch’. Subclasses of vaping device included ‘electronic vaping device’ with a further subclass, ‘e‐cigarette’. E‐cigarettes have evolved with a complex range of properties including atomiser resistance, battery power, properties of consumables including e‐liquid nicotine concentration and flavourings, and the ontology characterises classes of product accordingly. Conclusions Use of an ontology of tobacco, nicotine and vaping products should help reduce ambiguity and confusion in tobacco control research and practice.
ISSN:0965-2140
1360-0443
1360-0443
DOI:10.1111/add.16010